Searched for: subject%3A%22Rilem%22
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document
Lubelli, B. (author), Rörig-Daalgard, I. (author), Aguilar, A. M. (author), Aškrabić, M. (author), Beck, K. (author), Bläuer, C. (author), Cnudde, V. (author), D’Altri, A. M. (author), van Hees, R.P.J. (author), Kamat, Ameya (author)
This recommendation is devoted to testing the resistance of natural stone and fired-clay brick units against salt crystallization. The procedure was developed by the RILEM TC 271-ASC to evaluate the durability of porous building materials against salt crystallization through a laboratory method that allows for accelerated testing without...
journal article 2023
document
Lubelli, B. (author)
Salt weathering is one of the most recurrent damage processes affecting both the natural and the built environment. Due to the complexity of the process, numerical models are rarely applied in practice; accelerated weathering tests in laboratory are still the most common way to assess and forecast durability of (conservation and renovation)...
abstract 2023
document
Nahar, Sayeda (author), Porot, Laurent (author), Apostolidis, P. (author), Chailleux, Emmanuel (author)
In the past years, the use of liquid additives as bitumen modifiers has increased to enhance or adjust the properties of bitumen for wide range of applications. Their molecular composition and mutual interaction result in a specific phase morphology in the binders. Hence, there is a need to evaluate the phase and interphase framework and...
abstract 2022
document
Lubelli, B. (author), Aguilar, A. M. (author), Beck, K. (author), De Kock, T. (author), Desarnaud, J. (author), Franzoni, E. (author), Gulotta, D. (author), Ioannou, I. (author), Kamat, Ameya (author), Menendez, B. (author), Rörig-Dalgaard, I. (author), Sassoni, E. (author)
Salt crystallization is a major cause of damage in porous building materials. Accelerated salt weathering tests carried out in the laboratory are among the most common methods to assess the durability of material to salt decay. However, existing standards and recommendations for salt weathering tests have limitations in terms of effectiveness...
journal article 2022
document
Lubelli, B. (author)
The RILEM Technical Committee 271-ASC was set up in 2016 with the aim of<br/>developing an improved procedure for the assessment of the durability of porous building materials, such as brick and natural stone, against salt crystallization, accelerating the deterioration process without significantly altering its mechanism.<br/>The test procedure...
conference paper 2021
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Buswell, R. A. (author), da Silva, W. R.Leal (author), Bos, F. P. (author), Schipper, H.R. (author), Lowke, D. (author), Hack, N. (author), Kloft, H. (author), Mechtcherine, V. (author), Wangler, T. (author), Roussel, N. (author)
Digital Fabrication with Concrete (DFC) encompasses 3D Concrete Printing (3DCP) and many other methods of production. DFC is emerging from an era of invention and demonstration to one where the merits of one principle over another needs to be quantified systematically. DFC technologies vary in characteristics, complexity and maturity which...
journal article 2020
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Lubelli, B. (author), Cnudde, Veerle (author), Diaz-Goncalves, Teresa (author), Franzoni, Elisa (author), van Hees, R.P.J. (author), Ioannou, Ioannis (author), Menendez, Beatriz (author), Nunes, Cristiana (author), Siedel, Heiner (author), Stefanidou, Maria (author), Verges-Belmin, Veronique (author), Viles, Heather (author)
The durability of building materials with respect to salt crystallization is commonly determined by accelerated weathering tests, carried out in the laboratory. An effective laboratory weathering test should assess the durability and, in the case of conservation of historic buildings, the compatibility of repair materials with those existing....
journal article 2018
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